use std::env;
use std::ffi::OsStr;
use std::io::Write;
use std::path::{Path, PathBuf};

use anyhow::{Context, Result, anyhow};
use clap::ValueEnum;
use itertools::Itertools;
use owo_colors::OwoColorize;

use uv_cache::Cache;
use uv_client::BaseClientBuilder;
use uv_configuration::{
    Concurrency, DependencyGroups, EditableMode, ExportFormat, ExtrasSpecification, InstallOptions,
};
use uv_normalize::{DefaultExtras, DefaultGroups, PackageName};
use uv_preview::Preview;
use uv_python::{PythonDownloads, PythonPreference, PythonRequest};
use uv_requirements::is_pylock_toml;
use uv_resolver::{PylockToml, RequirementsTxtExport, cyclonedx_json};
use uv_scripts::Pep723Script;
use uv_settings::PythonInstallMirrors;
use uv_workspace::{DiscoveryOptions, MemberDiscovery, VirtualProject, Workspace, WorkspaceCache};

use crate::commands::pip::loggers::DefaultResolveLogger;
use crate::commands::project::install_target::InstallTarget;
use crate::commands::project::lock::{LockMode, LockOperation};
use crate::commands::project::lock_target::LockTarget;
use crate::commands::project::{
    ProjectError, ProjectInterpreter, ScriptInterpreter, UniversalState, default_dependency_groups,
    detect_conflicts,
};
use crate::commands::{ExitStatus, OutputWriter, diagnostics};
use crate::printer::Printer;
use crate::settings::{LockCheck, ResolverSettings};

#[derive(Debug, Clone)]
#[allow(clippy::large_enum_variant)]
enum ExportTarget {
    /// A PEP 723 script, with inline metadata.
    Script(Pep723Script),

    /// A project with a `pyproject.toml`.
    Project(VirtualProject),
}

impl<'lock> From<&'lock ExportTarget> for LockTarget<'lock> {
    fn from(value: &'lock ExportTarget) -> Self {
        match value {
            ExportTarget::Script(script) => Self::Script(script),
            ExportTarget::Project(project) => Self::Workspace(project.workspace()),
        }
    }
}

/// Export the project's `uv.lock` in an alternate format.
#[allow(clippy::fn_params_excessive_bools)]
pub(crate) async fn export(
    project_dir: &Path,
    format: Option<ExportFormat>,
    all_packages: bool,
    package: Vec<PackageName>,
    prune: Vec<PackageName>,
    hashes: bool,
    install_options: InstallOptions,
    output_file: Option<PathBuf>,
    extras: ExtrasSpecification,
    groups: DependencyGroups,
    editable: Option<EditableMode>,
    lock_check: LockCheck,
    frozen: bool,
    include_annotations: bool,
    include_header: bool,
    script: Option<Pep723Script>,
    python: Option<String>,
    install_mirrors: PythonInstallMirrors,
    settings: ResolverSettings,
    client_builder: BaseClientBuilder<'_>,
    python_preference: PythonPreference,
    python_downloads: PythonDownloads,
    concurrency: Concurrency,
    no_config: bool,
    quiet: bool,
    cache: &Cache,
    printer: Printer,
    preview: Preview,
) -> Result<ExitStatus> {
    // Identify the target.
    let workspace_cache = WorkspaceCache::default();
    let target = if let Some(script) = script {
        ExportTarget::Script(script)
    } else {
        let project = if frozen {
            VirtualProject::discover(
                project_dir,
                &DiscoveryOptions {
                    members: MemberDiscovery::None,
                    ..DiscoveryOptions::default()
                },
                &workspace_cache,
            )
            .await?
        } else if let [name] = package.as_slice() {
            VirtualProject::Project(
                Workspace::discover(project_dir, &DiscoveryOptions::default(), &workspace_cache)
                    .await?
                    .with_current_project(name.clone())
                    .with_context(|| format!("Package `{name}` not found in workspace"))?,
            )
        } else {
            let project = VirtualProject::discover(
                project_dir,
                &DiscoveryOptions::default(),
                &workspace_cache,
            )
            .await?;

            for name in &package {
                if !project.workspace().packages().contains_key(name) {
                    return Err(anyhow::anyhow!("Package `{name}` not found in workspace"));
                }
            }

            project
        };
        ExportTarget::Project(project)
    };

    // Determine the default groups to include.
    let default_groups = match &target {
        ExportTarget::Project(project) => default_dependency_groups(project.pyproject_toml())?,
        ExportTarget::Script(_) => DefaultGroups::default(),
    };

    // Determine the default extras to include.
    let default_extras = match &target {
        ExportTarget::Project(_project) => DefaultExtras::default(),
        ExportTarget::Script(_) => DefaultExtras::default(),
    };

    let groups = groups.with_defaults(default_groups);
    let extras = extras.with_defaults(default_extras);

    // Find an interpreter for the project, unless `--frozen` is set.
    let interpreter = if frozen {
        None
    } else {
        Some(match &target {
            ExportTarget::Script(script) => ScriptInterpreter::discover(
                script.into(),
                python.as_deref().map(PythonRequest::parse),
                &client_builder,
                python_preference,
                python_downloads,
                &install_mirrors,
                no_config,
                false,
                Some(false),
                cache,
                printer,
                preview,
            )
            .await?
            .into_interpreter(),
            ExportTarget::Project(project) => ProjectInterpreter::discover(
                project.workspace(),
                project_dir,
                &groups,
                python.as_deref().map(PythonRequest::parse),
                &client_builder,
                python_preference,
                python_downloads,
                &install_mirrors,
                false,
                no_config,
                Some(false),
                cache,
                printer,
                preview,
            )
            .await?
            .into_interpreter(),
        })
    };

    // Determine the lock mode.
    let mode = if frozen {
        LockMode::Frozen
    } else if let LockCheck::Enabled(lock_check) = lock_check {
        LockMode::Locked(interpreter.as_ref().unwrap(), lock_check)
    } else if matches!(target, ExportTarget::Script(_))
        && !LockTarget::from(&target).lock_path().is_file()
    {
        // If we're locking a script, avoid creating a lockfile if it doesn't already exist.
        LockMode::DryRun(interpreter.as_ref().unwrap())
    } else {
        LockMode::Write(interpreter.as_ref().unwrap())
    };

    // Initialize any shared state.
    let state = UniversalState::default();

    // Lock the project.
    let lock = match Box::pin(
        LockOperation::new(
            mode,
            &settings,
            &client_builder,
            &state,
            Box::new(DefaultResolveLogger),
            concurrency,
            cache,
            &workspace_cache,
            printer,
            preview,
        )
        .execute((&target).into()),
    )
    .await
    {
        Ok(result) => result.into_lock(),
        Err(ProjectError::Operation(err)) => {
            return diagnostics::OperationDiagnostic::native_tls(client_builder.is_native_tls())
                .report(err)
                .map_or(Ok(ExitStatus::Failure), |err| Err(err.into()));
        }
        Err(err) => return Err(err.into()),
    };

    // Identify the installation target.
    let target = match &target {
        ExportTarget::Project(VirtualProject::Project(project)) => {
            if all_packages {
                InstallTarget::Workspace {
                    workspace: project.workspace(),
                    lock: &lock,
                }
            } else {
                match package.as_slice() {
                    // By default, install the root project.
                    [] => InstallTarget::Project {
                        workspace: project.workspace(),
                        name: project.project_name(),
                        lock: &lock,
                    },
                    [name] => InstallTarget::Project {
                        workspace: project.workspace(),
                        name,
                        lock: &lock,
                    },
                    names => InstallTarget::Projects {
                        workspace: project.workspace(),
                        names,
                        lock: &lock,
                    },
                }
            }
        }
        ExportTarget::Project(VirtualProject::NonProject(workspace)) => {
            if all_packages {
                InstallTarget::NonProjectWorkspace {
                    workspace,
                    lock: &lock,
                }
            } else {
                match package.as_slice() {
                    // By default, install the entire workspace.
                    [] => InstallTarget::NonProjectWorkspace {
                        workspace,
                        lock: &lock,
                    },
                    [name] => InstallTarget::Project {
                        workspace,
                        name,
                        lock: &lock,
                    },
                    names => InstallTarget::Projects {
                        workspace,
                        names,
                        lock: &lock,
                    },
                }
            }
        }
        ExportTarget::Script(script) => InstallTarget::Script {
            script,
            lock: &lock,
        },
    };

    // Validate that the set of requested extras and development groups are defined in the lockfile.
    target.validate_extras(&extras)?;
    target.validate_groups(&groups)?;

    if output_file
        .as_deref()
        .and_then(Path::file_name)
        .is_some_and(|name| name.eq_ignore_ascii_case("pyproject.toml"))
    {
        return Err(anyhow!(
            "`pyproject.toml` is not a supported output format for `{}` (supported formats: {})",
            "uv export".green(),
            ExportFormat::value_variants()
                .iter()
                .filter_map(clap::ValueEnum::to_possible_value)
                .map(|value| value.get_name().to_string())
                .join(", ")
        ));
    }

    // Write the resolved dependencies to the output channel.
    let mut writer = OutputWriter::new(!quiet || output_file.is_none(), output_file.as_deref());

    // Determine the output format.
    let format = format.unwrap_or_else(|| {
        if output_file
            .as_deref()
            .and_then(Path::extension)
            .is_some_and(|ext| ext.eq_ignore_ascii_case("txt"))
        {
            ExportFormat::RequirementsTxt
        } else if output_file
            .as_deref()
            .and_then(Path::file_name)
            .and_then(OsStr::to_str)
            .is_some_and(is_pylock_toml)
        {
            ExportFormat::PylockToml
        } else {
            ExportFormat::RequirementsTxt
        }
    });

    // Skip conflict detection for CycloneDX exports, as SBOMs are meant to document all dependencies including conflicts.
    if !matches!(format, ExportFormat::CycloneDX1_5) {
        detect_conflicts(&target, &extras, &groups)?;
    }

    // If the user is exporting to PEP 751, ensure the filename matches the specification.
    if matches!(format, ExportFormat::PylockToml) {
        if let Some(file_name) = output_file
            .as_deref()
            .and_then(Path::file_name)
            .and_then(OsStr::to_str)
        {
            if !is_pylock_toml(file_name) {
                return Err(anyhow!(
                    "Expected the output filename to start with `pylock.` and end with `.toml` (e.g., `pylock.toml`, `pylock.dev.toml`); `{file_name}` won't be recognized as a `pylock.toml` file in subsequent commands",
                ));
            }
        }
    }

    // Generate the export.
    match format {
        ExportFormat::RequirementsTxt => {
            let export = RequirementsTxtExport::from_lock(
                &target,
                &prune,
                &extras,
                &groups,
                include_annotations,
                editable,
                hashes,
                &install_options,
            )?;

            if include_header {
                writeln!(
                    writer,
                    "{}",
                    "# This file was autogenerated by uv via the following command:".green()
                )?;
                writeln!(writer, "{}", format!("#    {}", cmd()).green())?;
            }
            write!(writer, "{export}")?;
        }
        ExportFormat::PylockToml => {
            let export = PylockToml::from_lock(
                &target,
                &prune,
                &extras,
                &groups,
                include_annotations,
                editable,
                &install_options,
            )?;

            if include_header {
                writeln!(
                    writer,
                    "{}",
                    "# This file was autogenerated by uv via the following command:".green()
                )?;
                writeln!(writer, "{}", format!("#    {}", cmd()).green())?;
            }
            write!(writer, "{}", export.to_toml()?)?;
        }
        ExportFormat::CycloneDX1_5 => {
            let export = cyclonedx_json::from_lock(
                &target,
                &prune,
                &extras,
                &groups,
                include_annotations,
                &install_options,
                preview,
                all_packages,
            )?;

            export.output_as_json_v1_5(&mut writer)?;
        }
    }

    writer.commit().await?;

    Ok(ExitStatus::Success)
}

/// Format the uv command used to generate the output file.
fn cmd() -> String {
    let args = env::args_os()
        .skip(1)
        .map(|arg| arg.to_string_lossy().to_string())
        .scan(None, move |skip_next, arg| {
            if matches!(skip_next, Some(true)) {
                // Reset state; skip this iteration.
                *skip_next = None;
                return Some(None);
            }

            // Always skip the `--upgrade` flag.
            if arg == "--upgrade" || arg == "-U" {
                *skip_next = None;
                return Some(None);
            }

            // Always skip the `--upgrade-package` and mark the next item to be skipped
            if arg == "--upgrade-package" || arg == "-P" {
                *skip_next = Some(true);
                return Some(None);
            }

            // Skip only this argument if option and value are together
            if arg.starts_with("--upgrade-package=") || arg.starts_with("-P") {
                // Reset state; skip this iteration.
                *skip_next = None;
                return Some(None);
            }

            // Always skip the `--quiet` flag.
            if arg == "--quiet" || arg == "-q" {
                *skip_next = None;
                return Some(None);
            }

            // Always skip the `--verbose` flag.
            if arg == "--verbose" || arg == "-v" {
                *skip_next = None;
                return Some(None);
            }

            // Return the argument.
            Some(Some(arg))
        })
        .flatten()
        .join(" ");
    format!("uv {args}")
}
